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Emission Control Science and Technology
Published in: Emission Control Science and Technology 1/2017

18-02-2017 | Special Issue: 2016 CLEERS April 6-8, Ann Arbor, MI, USA

Gasoline Particle Filter Development

Authors: Christine Lambert, Timothy Chanko, Douglas Dobson, Xin Liu, James Pakko

Published in: Emission Control Science and Technology | Issue 1/2017

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Abstract

Gasoline particle filter (GPF) development includes optimization of multiple, competing targets: low backpressure, high clean filtration, acceptable strength, high oxygen storage capacity, small size, and low cost. A three-way catalyst + GPF system needs to meet targets for hydrocarbons, carbon monoxide, and nitrogen oxides in addition to particle mass and/or particle number. GPFs behave differently than diesel particle filters (DPFs) in terms of regeneration and ash loading behavior due to vastly different operating conditions. In a relatively clean exhaust condition on GDI relative to diesel, an empty GPF can have filtration efficiencies on the order of 60%. This was improved to 80–90% with a small amount of soot and/or ash on the filter walls, or higher catalyst washcoat loading. In the course of this work, models were developed to predict backpressure, filtration, and chemical performance.
previous article A Study of the Soot Combustion Efficiency of an SCRF® Catalyst vs a CSF During Active Regeneration
next article Response Characteristics of Stable Mixed-Potential NH3 Sensors in Diesel Engine Exhaust

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Literature
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Bumbaroska, M., Dobson, D., Hangas, J., Pakko, J., Lambert, C., Tennison, P.: Analysis of high mileage gasoline exhaust particle filters. SAE Technical Paper 2016-01-0941
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Custer, N., Kamp, C.J., Sappok, A., Pakko, J., Lambert, C., Boerensen, C., Wong, V.: Lubricant-derived ash impact on gasoline particulate filter performance. SAE Technical Paper 2016-01-0942
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Metadata
Title
Gasoline Particle Filter Development
Authors
Christine Lambert
Timothy Chanko
Douglas Dobson
Xin Liu
James Pakko
Publication date
18-02-2017
Publisher
Springer International Publishing
Published in
Emission Control Science and Technology / Issue 1/2017
Print ISSN: 2199-3629
Electronic ISSN: 2199-3637
DOI
https://doi.org/10.1007/s40825-016-0055-x

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